A uniform thin rod of length l and mass m is hinged at one end and released on horizontal position as shown in the figure the angular acceleration of the rod about the hinge. when rod becomes vertical is
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Answer:
hy dude ur answer is
Explanation:
We know that the moment of inertia of a rod of mass m and length l about its center of mass is ml² / 12.
So, by parallel axes theorem, moment of inertia of the rod about the hinge point O is,
I = ml² / 12 + ml² / 4
I = ml² / 3
And the torque acting on the rod about the hinge point is,
τ = mgl / 2,
because force acting on the rod about the center of mass is its weight and the perpendicular distance between the center of mass and axis of rotation is l / 2.
We have,
τ = Iα
α = τ / I
α = (mgl / 2) / (ml² / 3)
α = 3g / 2l
Hence the answer is (4).
hope it helps!!
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